Whole-genome sequence of non-rhizobial strain sp. 709 isolated from the root nodule of Borris., growing on the Kamchatka Peninsula.

We report the whole-genome sequence of the non-rhizobial endosymbiotic bacteria sp. strain 709, which was isolated from the root nodule of Borris. on the Kamchatka Peninsula, Russia.

Whole-genome sequence of strain RCAM05007 isolated from (L.) Taub. root nodule.

We present the genome sequence of strain RCAM05007 obtained from long reads. The strain was isolated from the root nodule of (L.) Taub.

Complete genome sequence of strain A8/3-1 isolated from the root nodule of , growing in the Altai region.

In this article, we report the complete genome sequence of strain A8/3-1 isolated from the root nodule of Fisch. ex DC., growing in the Altai region, Russia.

Synergy between Rhizobial Co-Microsymbionts Leads to an Increase in the Efficiency of Plant-Microbe Interactions.

Combined inoculation of legumes with rhizobia and plant growth-promoting rhizobacteria or endophytes is a known technique for increasing the efficiency of nitrogen-fixing symbiosis and plant productivity. The aim of this work was to expand knowledge about the synergistic effects between commercial rhizobia of pasture legumes and root nodule bacteria of relict legume species. Pot experiments were performed on common vetch ( L.

Whole-Genome Sequence of Rhizobacterium sp. Strain 7/4-4, Isolated from the Root Nodule of Astragalus tugarinovii Basil Growing in the Russian Arctic.

The complete genome sequence of sp. strain 7/4-4, which was isolated from the root nodule of the circumpolar legume Astragalus tugarinovii Basil, is reported. The assembly contains 4,423,370 bp in 1 circular chromosome, with a GC content of 65.

Draft Genome Sequence of sp. Strain 32-5/1, Isolated from Vicia cracca L. Root Nodules in the Russian Arctic.

This study reports the whole-genome sequence of an endosymbiotic bacterium, sp. strain 32-5/1, isolated from root nodules of the legume Vicia cracca L. in the Arctic region of Russia.

Draft Genome Sequence of Guar (Cyamopsis tetragonoloba L.) Microsymbiont sp. Strain RCAM05973.

Here, we present the draft genome sequence of sp. strain RCAM05973 which was isolated from a Cyamopsis tetragonoloba (guar) root nodule. The genome contains 6,937,221 bp in 2 contigs and has a GC content of 60%.

Draft Genome Sequence of the Bacterium sp. Strain D39, Inhabiting the Rhizosphere of Pea Plants (Pisum sativum L.).

We report the draft genome sequence of sp. strain D39, associated with the roots of pea plants. The genome is characterized by a GC content of 63.

Complete Genome Sequence of Glutamicibacter sp. Strain M10, Isolated from an Arctic Permafrost Sample.

Permafrost is an extremely cold ecosystem that is inhabited by microorganisms with unique biochemical properties for potential biotechnological applications. Here, we present the complete genome sequence of sp. strain M10, which was isolated from a permafrost sample that had been collected at a depth of 2 m in West Spitsbergen, Norway.

Complete Genome Sequences of sp. Strains B-10 and H-1, Isolated from the Water in the Shulgan-Tash Cave.

In this article, we report the complete genome sequences of sp. strains B-10 (RCAM05335) and H-1 (RCAM05339), which were isolated from the water of the Dal'nee Verkhnee Lake in the Shulgan-Tash cave in Russia (53°2'0″N, 57°3'0″E). The sequences were obtained using an Oxford Nanopore Technologies MinION system.

The Role of Symbiotic Microorganisms, Nutrient Uptake and Rhizosphere Bacterial Community in Response of Pea ( L.) Genotypes to Elevated Al Concentrations in Soil.

Aluminium being one of the most abundant elements is very toxic for plants causing inhibition of nutrient uptake and productivity. The aim of this study was to evaluate the potential of microbial consortium consisting of arbuscular mycorrhizal fungus (AMF), rhizobia and PGPR for counteracting negative effects of Al toxicity on four pea genotypes differing in Al tolerance. Pea plants were grown in acid soil supplemented with AlCl (pH = 4.